A mechanism of the strain transition in M 3 H(XO 4 ) 2 , especially in Rb 3 H(SeO 4 ) 2 , involved in the ferroelastic-superprotonic phase transition is proposed where a coupling between strain and mobile protons plays a crucial role. The two dimensional Kagome lattice on the ab-plane is extracted for proton's pathway, and the pair approximation of the cluster variation method and path probability method is applied to evaluate thermodynamics and proton dynamics: the first-order long-range strain transition and the strain-involved dc-conductivity are qualitatively discussed. Both behaviors suggest the present proposed mechanism of the ferroelatic-superprotonic phase transition.